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guard :: (MonadPlus m) => Bool -> m ()
guard True  = return ()
guard False = mzero

Prelude Control.Monad> :t mzero
mzero :: (MonadPlus m) => m a

In the False branch of 'guard', the type of 'mzero' is 'm a', but the return type of 'guard' has been specified as 'm ()'. Hence I don't quite get it why compiler won't complain about this.

I mean if 'mzero' returns a value typed as 'Maybe Int', which is, of course, different from 'Maybe ()', right?

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1 Answer 1

up vote 4 down vote accepted

The compiler won't complain because m a is a superset of m ().

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'mzero' can return something like 'Maybe Int', right? I think it's different from 'Maybe ()' –  aXqd Nov 20 '10 at 11:44
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@aXqd: For the Maybe monad, mzero = Nothing, which has no preferred type for a. If you indeed cast Nothing to Maybe Int, it is different from Maybe (). However, the type is Maybe a for any possible a, not Maybe Int, so Maybe () is valid. –  KennyTM Nov 20 '10 at 11:49
    
@KennyTM Thanks for your reply. Yes, I might use a bad example. However if I write a custom type - 'MyType', and then make it the instance of 'Monad' and 'MonadPlus'. I can make 'mzero' return 'MyType Int' then. In fact, I think if there's a chance that what is going to be returned by 'mzero' is not 'm ()', the compiler should complain about it. Because the type of 'mzero' and the return type of 'guard' don't match with each other. I know I am wrong on this conclusion. I'm just not sure where the problem is. :P –  aXqd Nov 20 '10 at 11:57
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@aXqd: If mzero returns MyType Int then mzero is implemented incorrectly. The MonadPlus instance must implement mzero to return MyType a regardless of what a is. In fact, it won't compile if you try to return a MyType Int. (ideone.com/lcXYn) –  KennyTM Nov 20 '10 at 12:11
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In other words, mzero must be able to return m a for any a, of the CALLER's choice. This is because a "free" type variable like a has an implicit "for all a", whereas in the Java/C++ tradition, a type like Object has an implicit "there exists some type t that is a subclass of Object", and which type it actually is is the choice of whoever provided that object. The default "sense" of polymorphism is the opposite in Haskell from what it is in more "object oriented" languages. –  mokus Nov 20 '10 at 13:21

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